VSAG/amadeus_26_fb
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6225abf161017f5f7cd7225f50ba98f2dbc2428f
amadeus_26_fb/main.cpp
xinyang 15871a9289 Merge remote-tracking branch 'origin/master' 
# Conflicts:
#	tools/bind-monitor.sh
2019-05-09 20:18:28 +08:00

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//
// Created by xixiliadorabarry on 1/24/19.
//
#include <iostream>
#include <opencv2/core/core.hpp>
#include <energy/energy.h>
#include <uart/uart.h>
#include <energy/param_struct_define.h>
#include <energy/constant.h>
#include <camera/camera_wrapper.h>
#include <camera/video_wrapper.h>
#include <camera/wrapper_head.h>
#include <armor_finder/armor_finder.h>
#include <options/options.h>
#include <thread>
#define DO_NOT_CNT_TIME
#include <log.h>
#define PROJECT_DIR PATH
#define ENERGY_STATE 1
#define ARMOR_STATE 0
using namespace cv;
using namespace std;
int state = ARMOR_STATE;
float curr_yaw = 0, curr_pitch = 0;
float mark_yaw = 0, mark_pitch = 0;
int mark = 0;
bool use_classifier = false;
void uartReceive(Uart *uart);
int main(int argc, char *argv[]) {
process_options(argc, argv);
Uart uart;
thread receive(uartReceive, &uart);
bool flag = true;
while (flag) {
int ally_color = ALLY_RED;
int energy_part_rotation = CLOCKWISE;
int from_camera = 1;
if (!run_with_camera) {
cout << "Input 1 for camera, 0 for video files" << endl;
cin >> from_camera;
}
WrapperHead *video_armor;
WrapperHead *video_energy;
if (from_camera) {
video_armor = new CameraWrapper(0, "armor");
video_energy = new CameraWrapper(1, "energy");
} else {
video_armor = new VideoWrapper("/home/xinyang/Desktop/DataSets/video/blue_4.mp4");
video_energy = new VideoWrapper("/home/xinyang/Desktop/DataSets/video/blue_4.mp4");
}
if (video_armor->init() && video_energy->init()) {
cout << "Video source initialization successfully." << endl;
} else {
delete video_armor;
delete video_energy;
cout << "Program fails. Restarting" << endl;
}
Mat energy_src, armor_src;
for(int i=0; i<10; i++){
video_armor->read(armor_src);
video_energy->read(armor_src);
}
ArmorFinder armorFinder(ENEMY_BLUE, uart, PROJECT_DIR"/tools/para/", use_classifier);
Energy energy(uart);
energy.setAllyColor(ally_color);
energy.setRotation(energy_part_rotation);
bool ok = video_armor->read(armor_src) && video_energy->read(armor_src);
while (ok) {
CNT_TIME(WORD_LIGHT_CYAN, "Total", {
if (state == ENERGY_STATE) {
ok = video_energy->read(energy_src);
if (show_origin) {
imshow("energy src", energy_src);
}
if (from_camera == 0) {
energy.extract(energy_src);
}
energy.run(energy_src);
} else {
ok = video_armor->read(armor_src);
if (show_origin) {
imshow("armor src", armor_src);
}
CNT_TIME(WORD_LIGHT_BLUE, "Armor Time", {
armorFinder.run(armor_src);
});
}
if (waitKey(1) == 'q') {
flag = false;
break;
}
});
}
delete video_armor;
delete video_energy;
cout << "Program fails. Restarting" << endl;
}
return 0;
}
#define RECEIVE_LOG_LEVEL LOG_MSG
void uartReceive(Uart *uart) {
char buffer[100];
int cnt = 0;
LOGM("data receive start!");
while (true) {
char data;
while ((data = uart->receive()) != '\n') {
buffer[cnt++] = data;
if (cnt >= 100) {
LOG(RECEIVE_LOG_LEVEL, "data receive over flow!");
cnt = 0;
}
}
// LOGM("%d", cnt);
if (cnt == 11) {
if (buffer[8] == 'e') {
state = ENERGY_STATE;
LOG(RECEIVE_LOG_LEVEL, "Energy state");
} else if (buffer[8] == 'a') {
state = ARMOR_STATE;
LOG(RECEIVE_LOG_LEVEL, "Armor state");
}
if (buffer[10] == 0){
use_classifier = false;
LOG(RECEIVE_LOG_LEVEL, "Classifier off!");
} else if(buffer[10] == 1){
use_classifier = true;
LOG(RECEIVE_LOG_LEVEL, "Classifier on!");
}
memcpy(&curr_yaw, buffer, 4);
memcpy(&curr_pitch, buffer + 4, 4);
LOG(RECEIVE_LOG_LEVEL, "Get yaw:%f pitch:%f", curr_yaw, curr_pitch);
if (buffer[9] == 1) {
if (mark == 0) {
mark = 1;
mark_yaw = curr_yaw;
mark_pitch = curr_pitch;
}
LOG(RECEIVE_LOG_LEVEL, "Marked");
}
}
cnt = 0;
}
}
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